IEEE STD 739 1995:1996 Edition

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IEEE Recommended Practice for Energy Management in Industrial and Commercial Facilities

Published By	Publication Date	Number of Pages
IEEE	1996	297

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Description

PDF Catalog

PDF Pages	PDF Title
1	Title Page Title Page
5	Introduction Introduction
6	Participants Participants
8	CONTENTS CONTENTS
11	1. Overview 1. Overview 1.1 Scope 1.1 Scope 1.2 General discussion 1.2 General discussion
12	1.3 Management 1.3 Management 1.4 Fuel cost effects on electrical energy 1.4 Fuel cost effects on electrical energy
14	1.5 Periodicals 1.5 Periodicals
15	1.6 Standards and Recommended Practices 1.6 Standards and Recommended Practices
16	1.7 Industry Applications Society (IAS) 1.7 Industry Applications Society (IAS) 1.8 IEEE publications 1.8 IEEE publications
17	1.9 Governmental regulatory agencies 1.9 Governmental regulatory agencies 1.10 Keeping informed 1.10 Keeping informed
18	1.11 Professional activities 1.11 Professional activities 1.12 Coordination with other disciplines 1.12 Coordination with other disciplines
19	1.13 Text organization 1.13 Text organization
20	2. Organizing for energy management 2. Organizing for energy management 2.1 Introduction 2.1 Introduction
21	2.2 Organizing the program 2.2 Organizing the program
22	2.3 Surveying energy uses and losses 2.3 Surveying energy uses and losses
24	2.4 The six equipment audit categories 2.4 The six equipment audit categories
28	2.5 Energy conservation opportunities 2.5 Energy conservation opportunities
29	2.6 Energy monitoring and forecasting 2.6 Energy monitoring and forecasting
39	2.7 Employee participation 2.7 Employee participation
40	2.8 Summary 2.8 Summary 2.9 Bibliography 2.9 Bibliography
42	3. Translating energy into cost 3. Translating energy into cost 3.1 Introduction 3.1 Introduction 3.2 Important concepts in an economic analysis 3.2 Important concepts in an economic analysis
43	3.3 Economic models—their applications and limitations 3.3 Economic models—their applications and limitations
44	3.4 Time value of money 3.4 Time value of money
53	3.5 Utility rate structures 3.5 Utility rate structures
56	3.6 Calculating the cost of electricity 3.6 Calculating the cost of electricity
62	3.7 Loss evaluation 3.7 Loss evaluation
68	3.8 Bibliography 3.8 Bibliography
69	4. Load management 4. Load management 4.1 Definition of load management 4.1 Definition of load management 4.2 Demand control techniques 4.2 Demand control techniques
73	4.3 Utility monitoring and control system 4.3 Utility monitoring and control system
74	4.4 HVAC and energy management 4.4 HVAC and energy management
79	4.5 Economic justification for load management systems 4.5 Economic justification for load management systems 4.6 Bibliography 4.6 Bibliography
81	5. Energy management for motors, systems, and electrical equipment 5. Energy management for motors, systems, and electrical equipment 5.1 Overview 5.1 Overview
82	5.2 Systems and equipment 5.2 Systems and equipment
117	5.3 Electric motors 5.3 Electric motors
156	5.4 Transformers and reactors 5.4 Transformers and reactors
165	5.5 Capacitors and synchronous machines 5.5 Capacitors and synchronous machines
183	5.6 References 5.6 References
184	5.7 Bibliography 5.7 Bibliography
197	Annex 5A—Manufacturing end-use applications of electricity by category and sector, 1990 (billion kWh) Annex 5A—Manufacturing end-use applications of electricity by category and sector, 1990 (billion kWh)
198	Annex 5B—Steam generator system description Annex 5B—Steam generator system description
199	Annex 5C—Compressed air systems worksheet (SEC of Victoria [B196]) Annex 5C—Compressed air systems worksheet (SEC of Victoria [B196])
203	Annex 5D—Refrigeration system description Annex 5D—Refrigeration system description
204	Annex 5E—Alternating-current single-phase small (fractional-horsepower) motors rated 1/20-1 hp, 250 V or less Annex 5E—Alternating-current single-phase small (fractional-horsepower) motors rated 1/20-1 hp, 250 V or less
206	Annex 5F—Typical characteristics and applications of fixed-frequency medium ac polyphase squirrel-cage ind… Annex 5F—Typical characteristics and applications of fixed-frequency medium ac polyphase squirrel-cage ind…
207	Annex 5G—Example of a 300 hp induction motor adjustable frequency drive: Efficiency vs. frequency Annex 5G—Example of a 300 hp induction motor adjustable frequency drive: Efficiency vs. frequency
208	Annex 5H—Example of a 300 hp induction motor adjustable frequency drive: Kilowatts vs. frequency Annex 5H—Example of a 300 hp induction motor adjustable frequency drive: Kilowatts vs. frequency
209	Annex 5I—Typical range of efficiencies for dry-type transformers: 25–100% load Annex 5I—Typical range of efficiencies for dry-type transformers: 25–100% load
210	6. Metering for energy management 6. Metering for energy management 6.1 Background 6.1 Background 6.2 Relationships between parameters in an electric power system survey 6.2 Relationships between parameters in an electric power system survey
211	6.3 Units of measure 6.3 Units of measure 6.4 Typical cost factors 6.4 Typical cost factors
213	6.5 Six reasons to meter 6.5 Six reasons to meter
214	6.6 The importance of audits 6.6 The importance of audits
218	6.7 Utility meters 6.7 Utility meters
222	6.8 Timing of meter disc for kilowatt measurement 6.8 Timing of meter disc for kilowatt measurement
223	6.9 Demand meters 6.9 Demand meters
226	6.10 Paralleling of current transformers 6.10 Paralleling of current transformers 6.11 Instrument transformer burdens 6.11 Instrument transformer burdens 6.12 Multitasking solid-state meters 6.12 Multitasking solid-state meters
227	6.13 Metering location vs. requirements 6.13 Metering location vs. requirements
228	6.14 Metering techniques and practical examples 6.14 Metering techniques and practical examples
231	6.15 Motor power 6.15 Motor power 6.16 Motor surveys 6.16 Motor surveys
234	6.17 Performing a motor survey 6.17 Performing a motor survey
242	6.18 Summary 6.18 Summary 6.19 Bibliography 6.19 Bibliography
244	7. Energy management for lighting systems 7. Energy management for lighting systems 7.1 Introduction 7.1 Introduction 7.2 Definitions of basic lighting terms 7.2 Definitions of basic lighting terms
245	7.3 Concept of lighting systems 7.3 Concept of lighting systems 7.4 The task and the working space 7.4 The task and the working space
248	7.5 Light sources 7.5 Light sources
255	7.6 Ballasts 7.6 Ballasts
265	7.7 Luminaires 7.7 Luminaires
268	7.8 Lighting controls 7.8 Lighting controls
270	7.9 Optimizing lighting energy 7.9 Optimizing lighting energy
273	7.10 Power factor and effect of harmonics on power quality 7.10 Power factor and effect of harmonics on power quality
274	7.11 Interaction of lighting with other building subsystems 7.11 Interaction of lighting with other building subsystems
275	7.12 Cost analysis techniques 7.12 Cost analysis techniques
277	7.13 Lighting and energy standards 7.13 Lighting and energy standards
280	7.14 Bibliography 7.14 Bibliography
282	8. Cogeneration 8. Cogeneration 8.1 Introduction 8.1 Introduction 8.2 Forms of cogeneration 8.2 Forms of cogeneration
288	8.3 Determining the feasibility of cogeneration 8.3 Determining the feasibility of cogeneration
292	8.4 Electrical interconnection 8.4 Electrical interconnection
296	8.5 References 8.5 References
297	8.6 Bibliography 8.6 Bibliography

Additional information

Standard Title	IEEE Recommended Practice for Energy Management in Industrial and Commercial Facilities
Published Code	IEEE
Publication Date	1996
Pages Count	297

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IEEE STD 739 1995:1996 Edition

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